/* Copyright (c) 2000, 2024, Oracle and/or its affiliates. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License, version 2.0, as published by the Free Software Foundation. This program is designed to work with certain software (including but not limited to OpenSSL) that is licensed under separate terms, as designated in a particular file or component or in included license documentation. The authors of MySQL hereby grant you an additional permission to link the program and your derivative works with the separately licensed software that they have either included with the program or referenced in the documentation. Without limiting anything contained in the foregoing, this file, which is part of C Driver for MySQL (Connector/C), is also subject to the Universal FOSS Exception, version 1.0, a copy of which can be found at http://oss.oracle.com/licenses/universal-foss-exception. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License, version 2.0, for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA */ /** @file mysys/thr_mutex.cc */ #include "thr_mutex.h" #include #include #include #include #include #include "my_thread_local.h" #if defined(SAFE_MUTEX) /* This makes a wrapper for mutex handling to make it easier to debug mutex */ static bool safe_mutex_inited = false; /** While it looks like this function is pointless, it makes it possible to catch usage of global static mutexes. Since the order of construction of global objects in different compilation units is undefined, this is quite useful. */ void safe_mutex_global_init(void) { safe_mutex_inited = true; } int safe_mutex_init(safe_mutex_t *mp, const native_mutexattr_t *attr, const char *file, uint line) { assert(safe_mutex_inited); memset(mp, 0, sizeof(*mp)); native_mutex_init(&mp->global, MY_MUTEX_INIT_ERRCHK); native_mutex_init(&mp->mutex, attr); /* Mark that mutex is initialized */ mp->file = file; mp->line = line; return 0; } int safe_mutex_lock(safe_mutex_t *mp, bool try_lock, const char *file, uint line) { int error; native_mutex_lock(&mp->global); if (!mp->file) { native_mutex_unlock(&mp->global); fprintf(stderr, "safe_mutex: Trying to lock uninitialized mutex at %s, line %d\n", file, line); fflush(stderr); abort(); } if (mp->count > 0) { if (try_lock) { native_mutex_unlock(&mp->global); return EBUSY; } else if (my_thread_equal(my_thread_self(), mp->thread)) { #ifndef NDEBUG fprintf(stderr, "safe_mutex: Trying to lock mutex at %s, line %d, when the" " mutex was already locked at %s, line %d in thread T@%u\n", file, line, mp->file, mp->line, my_thread_var_id()); fflush(stderr); #endif abort(); } } native_mutex_unlock(&mp->global); /* If we are imitating trylock(), we need to take special precautions. - We cannot use pthread_mutex_lock() only since another thread can overtake this thread and take the lock before this thread causing pthread_mutex_trylock() to hang. In this case, we should just return EBUSY. Hence, we use pthread_mutex_trylock() to be able to return immediately. - We cannot just use trylock() and continue execution below, since this would generate an error and abort execution if the thread was overtaken and trylock() returned EBUSY . In this case, we instead just return EBUSY, since this is the expected behaviour of trylock(). */ if (try_lock) { error = native_mutex_trylock(&mp->mutex); if (error == EBUSY) return error; } else error = native_mutex_lock(&mp->mutex); if (error || (error = native_mutex_lock(&mp->global))) { fprintf(stderr, "Got error %d when trying to lock mutex at %s, line %d\n", error, file, line); fflush(stderr); abort(); } mp->thread = my_thread_self(); if (mp->count++) { fprintf(stderr, "safe_mutex: Error in thread libray: Got mutex at %s, \ line %d more than 1 time\n", file, line); fflush(stderr); abort(); } mp->file = file; mp->line = line; native_mutex_unlock(&mp->global); return error; } int safe_mutex_unlock(safe_mutex_t *mp, const char *file, uint line) { int error; native_mutex_lock(&mp->global); if (mp->count == 0) { fprintf(stderr, "safe_mutex: Trying to unlock mutex that wasn't locked at %s, line " "%d\n Last used at %s, line: %d\n", file, line, mp->file ? mp->file : "", mp->line); fflush(stderr); abort(); } if (!my_thread_equal(my_thread_self(), mp->thread)) { fprintf(stderr, "safe_mutex: Trying to unlock mutex at %s, line %d that was " "locked by another thread at: %s, line: %d\n", file, line, mp->file, mp->line); fflush(stderr); abort(); } mp->thread = null_thread_initializer; mp->count--; error = native_mutex_unlock(&mp->mutex); if (error) { fprintf(stderr, "safe_mutex: Got error: %d (%d) when trying to unlock mutex at %s, " "line %d\n", error, errno, file, line); fflush(stderr); abort(); } native_mutex_unlock(&mp->global); return error; } int safe_mutex_destroy(safe_mutex_t *mp, const char *file, uint line) { int error = 0; native_mutex_lock(&mp->global); if (!mp->file) { native_mutex_unlock(&mp->global); fprintf( stderr, "safe_mutex: Trying to destroy uninitialized mutex at %s, line %d\n", file, line); fflush(stderr); abort(); } if (mp->count != 0) { native_mutex_unlock(&mp->global); fprintf(stderr, "safe_mutex: Trying to destroy a mutex that was locked at %s, line " "%d at %s, line %d\n", mp->file, mp->line, file, line); fflush(stderr); abort(); } native_mutex_unlock(&mp->global); if (native_mutex_destroy(&mp->global)) error = 1; if (native_mutex_destroy(&mp->mutex)) error = 1; mp->file = nullptr; /* Mark destroyed */ return error; } #endif /* SAFE_MUTEX */